The cell incubator is a commonly used experimental equipment. In the process of use, a cell is cultivated in large quantities to become a simple cell or a multi-cell with little differentiation. The whole process has extremely strict requirements on the culture environment.
In the process of cell culture, picking and placing cells is the most basic operation. The moment the door of the culture room is opened and closed, the microorganisms in the environment will more or less enter the incubator, and the temperature difference between the inside and outside causes the generation of condensed water in the inner door, which is very easy to adsorb microorganisms , are risk factors for incubator contamination.
Human grasping of culture bottles VS robotic automatic grasping
Traditional laboratories need to move back and forth between the incubator and the platform
Replace manual repetitive walking and petri dish grabbing work
Human Manual Recording VS Robot Automatic Reminder
Traditional laboratories need to manually record when to put the petri dish back and take it out again
Provide data record and system reminder function
It is specially designed for busy cell laboratories and biological laboratories. It replaces manual repetitive walking and grabbing tasks with intelligent robots, solves the repeated access work of culture vessels in the life science experiment process, reduces the contact between personnel and culture vessels, and ensures the accuracy of experiments. The operating environment is clean and safe.
The entire cell culture process has a data record and system reminder function, which can regularly remind the experimenter to pick and place the petri dish according to the set time.
The incubator robot maintains high saturated humidity in the inner cavity through precise control of temperature and carbon dioxide concentration, and adopts 180°C high-temperature dry heat sterilization process to ensure high cleanliness and provide a more stable culture environment for cells. It can be widely used in stem cell research, immune scientific research, neurobiological research, and cancer research.
stable cell culture environment
? High-precision high-temperature resistant carbon dioxide infrared (IR) probe to accurately monitor changes in CO2 concentration
? Six-sided air jacket heating with Pt1000 platinum thermal resistance, more stable temperature control
? Optional humidity probe, real-time monitoring of humidity changes
Effective anti-pollution configuration
? 180℃ high temperature dry heat sterilization, effective sterilization, prevent pollution
? Built-in HEPA high-efficiency filter to maintain the inner cavity of ISO 5 air cleanliness
? The design of the rounded corners in the cavity and the design of the sliding bar of the diaphragm, clean and free of dead ends
multiple alarm systems
? Real-time monitoring of the opening time of the outer and inner doors, and alarm when timeout occurs
? Real-time monitoring of inner cavity core parameters, abnormal alarm
? During high temperature sterilization, over temperature alarm
Adapt to different consumables
It can meet almost all types of culture vessels and supports model customization to meet the needs of culture experiments.
Real-time environmental monitoring
Establish a unique uniform environment control technology to ensure the uniform control of temperature, humidity and carbon dioxide concentration in the cabinet.
Can be controlled remotely
It can remotely monitor the operation of the equipment in real time, and monitor the online and offline status in real time, without the need for personnel to be on duty, liberating the labor force in the laboratory.
